Will remote workers be able to be seen and interacted with via their holograms (i.e., attending their meetings virtually)? What would this mean for remote learners?

Will our smartphones increasingly allow us to see information overlaid on the real world? (Think Pokémon Go, but putting that sort of technology into a vast array of different applications, many of which could be educational in nature)

How do/will these new forms of HCI impact how we design our learning spaces?

Will students be able to pick their preferred learning setting (i.e., studying by a brook or stream or in a virtual Starbucks-like atmosphere)?

Will more devices/platforms be developed that combine the power of AI with VR/AR/MR-related experiences? For example, will students be able to issue a verbal question or command to be able to see and experience walking around ancient Rome?

Will there be many new types of learning experiences,like what Microsoft was able to achieve in its collaboration with Case Western Reserve University [OH]? Its HoloLens product transforms the way human anatomy can be taught.

p. 22 Extensive costs for VR design and development drive the need for collaborative efforts.

Case Western Reserve University, demonstrates a collaboration with the Cleveland Clinic and Microsoft to create active multi-dimensional learning using holography.

the development of more affordable high-quality virtual reality solutions.

AR game developed by the Salzburg University of Applied Sciences [Austria] (http://www.fh-salzburg.ac.at/en/) that teaches about sustainability, the environment and living green.

Whether using AR for a gamified course or to acclimate new students to campus, the trend will continue into 2017.

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15 Tech Tool Favorites From ISTE 2016

Google ExpeditionsThis virtual reality field trip tool works in conjunction with Google Cardboard and has just been officially released. The app allows teachers to guide students through an exploration of 200 (and growing) historical sites and natural resources in an immersive, three-dimensional experience. The app only works on Android devices and is free.

FlippityThis app works in conjunction with Google Sheets and allows teachers to easily make a Jeopardy-style game.

Google Science JournalThis Android app allows users to do science experiments with mobile phones. Students can use sensors in the phone or connect external sensors to collect data, but can also take notes on observations, analyze and annotate within the app.

Google CastThis simple app solves issues of disparate devices in the classroom. When students download the app, they can project from their devices onto the screen at the front of the room easily. “You don’t have to have specific hardware, you just have to have Wi-Fi,”

ConstituteThis site hosts a database of constitutions from around the world. Anything digitally available has been aggregated here. It is searchable by topic and will pull out specific excerpts related to search terms like “freedom of speech.”

YouTubea database of YouTube Channels by subject to help educators with discoverability (hint subjects are by tab along the bottom of the document).

Zygote BodyThis freemium tool has a lot of functionality in the free version, allowing students to view different parts of human anatomy and dig into how various body systems work.

PixlrThis app has less power than Photoshop, but is free and fairly sophisticated. It works directly with Google accounts, so students can store files there.

uild With ChromeThis extension to the Chrome browser lets kids play with digital blocks like Legos. Based on the computer’s IP address, the software assigns users a plot of land on which to build nearby. There’s a Build Academy to learn how to use the various tools within the program, but then students can make whatever they want.

Google CS FirstBuilt on Scratch’s programming language, this easy tool gives step-by-step instructions to get started and is great for the hesitant teacher who is just beginning to dip a toe into coding.

eXtended Reality (XR): The New World of Human/Machine Interaction

Wednesday, October 31 | 9:45am – 10:30am MT |

Session Type: Breakout Session

Delivery Format: Interactive Presentation

eXtended reality (XR) technologies present opportunities to advance the higher education mission and prepare students for a new world of human/machine interaction. In this interactive session, we will explore what is being done today and what is possible in four key areas of XR: use, technology, content development, and gamification.

Outcomes:
*Identify best-of-class tools and methods available for the design and support of XR in higher ed
* Explain to campus stakeholders the potential of XR to support pedagogy, research, and student success
* Understand the areas of focus of our growing XR community of practice and how you can participate

A driving factor for mobile learning is the ownership of mobile devices, particularly the smartphone. In 2018, the Pew Research Center reported that 59% of adults globally own a smartphone, and research from the EDUCAUSE Center for Analysis and Research indicated that 95% of undergraduate students own smartphones. As mobile device ownership and usage have increased, mobile learning is no longer just focused on asynchronous interaction, content creation, and reference. More emphasis is emerging on content that is responsive instead of adaptive and on creating microlearning experiences that can sync across multiple devices and give learners the flexibility to learn on the device of their choice

p. 25 Mixed Reality

p. 36 Fail or Scale: AR and MR –
In 2016, the Horizon Expert Panel determined that augmented reality and virtual reality were two to three years from widespread adoption. By 2018, the notion of mixed reality was, at four to five years from adoption, even further out.

P 4. But all that “disruption,” as people love to collect, is over looking the thing that’s the most disruptive of them all call on the way we relate to each other will never be the same. That’s because of something called presence.

Presence is the absolute foundation of virtual reality, and in VR, it’s the absolute foundation of connection-connection with yourself, with an idea, with another human, even connection with artificial intelligence.

p. 28 VR definition

Virtual reality is an 1. artificial environment that’s 2. immersive enough to convince you that you are 3. actually inside it.

1. ” artificial environment ” could mean just about anything. The photograph is an artificial environment of video game is an artificial environment a Pixar movie is an artificial environment the only thing that matters is that it’s not where are you physically are

p. 44 VR: putting the “it” in “meditation”my note: it seems Rubin sees the 21st century VR as the equivalent of the drug experimentation in the 1960s US: p. 46 “VR is potentially going to become a direct interface to the subconscious”

p. 74 serious games, Carrie Heeter. p. 49

The default network in the brain in today’s society is the wandering mind. We are ruminating about the past, and we are worrying about the future, or maybe even planning for the future; there is some productive thinking. But in general, a wandering mind is an unhappy mind. And that is where we spent all of our week in time: not being aware of everything that we are experiencing in the moment.

Hester’s Open meditation had already let her to design apps and studies that investigated mediate meditations ability to calm that wandering mind

p. 51 Something called interoception. It is a term that is gaining ground in psychologist circles in recent years and basically means awareness of battle associations-like my noticing the fact that I was sitting awkwardly or that keeping my elbows on the cheers armrests was making my shoulders hunched slightly. Not surprisingly, mindfulness meditation seems to heighten interoception. And that is exactly how Heeter and Allbritton Strep throat the meditation I am doing on Costa Del sole. First, I connect with the environment; then with my body; Dan I combined the two. The combination of the VR and interception leads to what she describes as “embodied presence”: not only do you feel like you are in the VR environment, but because you have consciously work to integrate your bodily Sensations into VR, it is a fuller, more vivid version of presents.

p. 52 guided meditation VR GMVR

p. 56 VVVR visual voice virtual reality

p. 57

Just as the ill-fated google glass immediately stigmatized all its wearers as “glassholes”- a.k.a. “techier-than-thou douche bags who dropped $1500 to see an email notification appear in front of their face”-so to do some VR headset still look like face TVs for another it’s

p. 61 Hedgehog Love
engineering feelings with social presence. p.64 remember presents? This is the beginning of social presence. Mindfulness is cool, but making eye contact with Henry is the first step into the future.

p.65 back in 1992, our friend Carrie heeter posited that presence-the sensation did you are really there in VR-head treat day mentions. There was personal presents, environmental presents, and social presents, which she basically defined is being around other people who register your existence.

p. 66 the idea that emotion can be not a cause, as sweet so often assumed, but a result of it of behavior

p. 72 in chapter 1, we explain the difference between Mobile VR and PC driven PR. The former is cheaper and easier; all you do is drop your smart phone into a headset, and it provides just about everything can eat. Dedicated VR headsets rely on the stronger processors of desktop PCs and game consoles,So they can provide a more robust sense of presence-usually at the cost of being hit Earth to your computer with cables. (it’s the cost of actual money: dedicated headset systems from hundreds of dollars, while mobile headsets like Samsung’s deer VR or Google’s DayDream View can be had for mere tens of dollars.) There is one other fundamental distinction between mobile VR and high-end VR, though, and that is what you do with your hands-how you input your desires. When VR reemerged in the early 2010s, however, the question of input was open to debate. Actually, more than one debate. p. 73 video game controllers are basically metaphors. Some, like steering wheels or pilot flight sticks, might look like that think they’re supposed to be, but at their essence they are all just collections of buttons. p. 77 HTC sales small wearable truckers that you can affix to any object, or anybody part, to break it into the Vive’s VR.

p. 78 wait a second – you were talking about storytelling.

p. 79 Every Hollywood studio you can imagine-21st Century Fox, Paramount, Warner Bross.-Has already invested in virtual reality. They have made VR experiences based on their own movies, like interstellar or ghost in the Shell, and they have invested in other VR companies. Hollywood directors like Doug Liman (Edge of Tomorrow) and Robert Stromberg (Maleficent) have taken VR project. And the progress is exhilarating. Alejandro GOnzalez Inarritu, a 4-Time Oscar winner for best director 2014 movie Birdman, won best picture, received this special achievement Academy award in 2017 for a VR Schwartz he made. Yet Carne Y Arena, which puts viewers insight a harrowing journey from Mexico to the United States, is nothing like a movie, or even a video game.

When you premiered at the Cannes film Festival in early 2017, it was housed in an airplane hangar; viewers were a shirt, barefoot, into a room with a sand-covert floor, where they could watch and interact with other people trying to make it over the border. Arrests, detention centers, dehydration-the extremity of the human condition happening all around you. India announcement, the Academy of motion picture arts and sciences called the peas “deeply emotional and physically immersive”

Both of these words are fuzzy, to say the least. Both have decades of study behind him, but both have also appeared and more magazine covers in just about any words, other than possibly “abs”

Empathy: dear Do it to do identify with and understand dollars, particularly on an emotional level. It involves imagining yourself in the place of another and, therefore, appreciating how do you feel.

Intimacy: a complex sphere of ‘inmost’ relationships with self and others that are not usually minor or incidental (though they may be a transitory) and which usually touch the personal world very deeply. They are our closest relationships with friends, family, children, lovers, but they are also the deep into important experiences we have with self

Empathy necessarily needs to involve other people; intimacy doesn’t. Empathy involves emotional understanding; intimacy involves emotion itself. Empathy, at its base, isn’t act of getting outside yourself: you’re protecting yourself into someone’s else experience, which means that in some ways you are leaving your own experience behind, other than as a reference point. Intimacy, on the other hand, is at its base act of feeling: you might be connecting quit someone or something Else, but you are doing so on the basis of the emotions you feel. p 86. Any type of VR experience perfectly illustrates the surprising gap between empathy and intimacy: life action VR. p. 87 unlike CGI-based storytelling, which full somewhere in between game in movie, live action VR feels much more like the conventional video forms that we are used to from television and movies. Like those media, people have been using VR to shoot everything from narrative fiction to documentary the sports.

p. 92 every single story has only one goal at its base: to make you care. This holds true whether it is a tale told around a campfire at night, one related to a sequence of panels in the comic book, or dialogue-heavy narrative of a television show. The story might be trying to make you laugh, or just scare you, or to make you feel sad or happy on behalf of one of the characters, but those are all just forms of caring, right? Your emotional investment-the fact that what kept us in this tale matters to you-is the fundamental aim of the storyteller.

Storytelling, than, has evolved to find ways to draw you out of yourself, to make you forget that what you are hearing or seeing or reading isn’t real. It’s only at that point, after all, that our natural capacity for empathy can kick in. p. 93 meanwhile, technology continues to evolve to detaches from those stories. For one, the frame itself continues to get smaller. Strangers still, this distraction has happened well stories continue to become more and more complex. Narratively, at least, stories are more intricate then the have ever been. p. 94. Now, with VR storytelling, the distracting power of multiple screens his met it’s match.

p. 101 experiencing our lives- together

What videos two cannot do, though, he’s bringing people together insights VR, the way re-McClure’s sinking-multicoloredat-blogs-at-each-other tag-team project is VVVR does. That’s why even V are filmmaking powerhouses like Within ( https://www.with.in/get-the-app) are moving beyond mere documentary and narrative and trying to turn storytelling into a shared experience.

Make no mistake: storytelling has always been a shirt experience. Being conscripted into the story, or even being the story.

p. 103 like so many VR experiences, life of us defies many of the ways we describe a story to each other. For one, it feels at fonts shorter and longer than its actual seven-minutes runtime; although it’s seems to be over in a flash, flash contains so many details that in retrospect it is as full and vivid is a two-our movie.

There is another think, though, that sets life of us apart from so many other stories-it is the fact that not only was I in the story, but someone else was in there with me. In that someone wasn’t a field character talking to a camera that they some calling about it, or a video game creature that was programmed to look in ‘my’ direction, but a real person-a person who saw what I saw, a person who was present for each of those moments and who know is inextricably part of my old, shard-Like memory of them.

p. 107 what to do and what to do it with . How social VR is reinventing everything from game night to online harassment.

p. 110 VR isn’t given Romo’s first bet on the future. When he was finishing up his masters degree in mechanical engineering, a professor emailed him on behalf of two men who were recruiting for a rocket company there were starting. One of those man was a Elon musk, which is how Romo became the 13th employee at space X. Eventually, she started the company focusing go solar energy, but when the bottom fell out of the industry, she shut down the company and looked for his next opportunity. Romo spent the next year and a half researching the technology and thinking about what kind of company might make sense in the new VR enabled world. He had read Snow crash, but he oh soon you get our hopes for DVR future could very well end up like gay themed flying car: defined-and limited-bite an expectation that might not match perfectly which what we actually want.

p. 116 back in the day, trolling just trim forward to pursuing a provocative argument for kicks. Today, the word used to describe the actions of anonymous mobs like the one that, for instance, Rolf actor Leslie Jones off Twitter with an onslaught of racist and sexist abuse. Harassment has become one of the defining characteristics of the Internet is for use it today. But with the emergernce of VR, our social networks have become, quite literally, embodied.

p. 142 increasing memory function by moving from being a voyeur to physically participating in the virtual activity. embodied presence – bringing not just your head into your hands, but your body into VR-strengthens memories in the number of ways.

p. 143 at the beginning of 2017, Facebook fit published some of its. New Ron’s in internal research about the potential of social VR. Neurons INc. The agency measured eye movements, Brain activity, and pools of volunteers who were watching streaming video on smart phones and ultimately discovered that buffering and lag were significantly more stressful than waiting can line it a store, and even slightly more stressful than watching a horror movie.

p. 145 after the VR experience, more than 80% of introverts — is identified by a short survey participants took before hand-wanted to become friends with the person they had chatted with, as opposed to less than 60% of extroverts

p. 171 Zhao laid out two different criteria. The first was whether or not to people are actually in the same place-basically, are they or their stand-ins physically close enough to be able to communicate without any other tools? To people, she wrote, can either have “physical proximity” or “electronic proximity” the latter being some sort of networked connection. The second criterion was whether each person is corporeally there; in other words, is it their actual flesh-and-blood body? The second condition can have three outcomes: both people can be there corporeally; neither can be there corporeally , instead using some sort of stand in like an avatar or a robot; or just one of them can be there corporeally, with the other using case stent in

“virtual copresence” is when a flesh and blood person interacts physically with a representative of a human; if that sounds confusing, 80 good example is using an ATM call mom where are the ATM is a stent in for a bank teller

p. 172 “hypervirtual copresence,” which involves nonhuman devices that are interacting in the same physical space in a humanlike fashion. social VR does not quite fit into any of this category. Zhao refers to this sort of hybrid as a “synthetic environment” and claims that it is a combination of corporeal https://www.waze.com/telecopresence (like Skyping) and virtual telecopresence(like Waze directions )

p. 172 haptic tactics for tactile aptness

Of the five human senses, a VR headset ca currently stimulates only to: vision and hearing. That leaves treat others-and while smell and taste me come some day.
P. 174; https://en.wikipedia.org/wiki/Aldous_Huxley Brave New World. tactile “feelies”

p. 221 where we are going, we don’t need headsets. lets get speculative

p. 225 Magic Leap. p. 227 Magic Leap calls its technology “mixed reality,” claiming that the three dimensional virtual objects it brings into your world are far more advanced than the flat, static overlays of augmented reality. In reality, there is no longer any distinction between the two; in fact, the air are by now so many terms being accused in various ways by various companies that it’s probably worth a quick clarification.

definitions

Virtual reality: the illusion of an all-enveloping artificial world, created by wearing an opaque display in front of your eyes.

augmented reality: Bringing artificial objects into the real world-these can be as simple as a ” heads-up display,” like a speedometer project it onto your car’s windshield, or as complex as seen to be virtual creature woke across your real world leaving room, casting a realistic shadow on the floor

mixed reality: generally speaking, this is synonymous with AR, or eight at least with the part of AR that brings virtual objects into the real world. However, some people prefer “mixed” because they think “augmented” implies that reality isn’t enough.

extended or synthetic reality (XR or SR): all of the above! this are bought catch old terms that encompass the full spectrum of virtual elements individual settings.

p. 229 Eve VR is these come blink toddler, though, AR/MR is a third-trimester fetus: eat may be fully formed book eat is not quite ready to be out in the world yet. The headsets or large, the equipment is far more expensive than VR Anthony in many cases we don’t even know what a consumer product looks like.

p. 235 when 2020 is hindsight: what life in 2028 might actually look like.

p. 5 a LibGuide was created that provided a better description of the available software for both the Microsoft Hololens and the HTC Vive and also discussed potential applications for the technology.

Both the HTC Vive and the Hololens were made bookable through the library’s LibCalendar booking system, streamlining the booking process and creating a better user experience.

When the decision was made to bring virtual and augmented reality into the McGill University Library, an important aspect of this project was to develop a collection of related software to be used alongside the technology. In building this software collection a priority was placed on acquiring software that could be demonstrated as having educational value, or that could potentially be used in relation to, or in support of, university courses.

For the Microsoft Hololens, all software was acquired through Microsoft’s Online Store. The store has a number of educationally relevant HoloLens apps available for purchase. The app ARchitect, for example, gives a basic sense of how augmented reality could be used for viewing new building designs. The app Robotics BIW allows user to simulate robotic functions. A select number of apps, such as Land of the Dinosaurs and Boulevard, provide applications for natural history and art. There were a select number of apps related to science, mathematics and medicine, and others with artistic applications. All of the HoloLens applications were free but, compared to what is available for virtual reality, the experiences were much smaller in size and scope.

For the HoloLens, a generic user account was created and shared with person who booked the HoloLens at the time of their booking. After logging into this account – which could sometimes prove to be a challenge because typing is done using the headset’s gesture controls – the user could select a floating tile which would reveal a list of available software. An unresolved problem was that users would then need to refer to the HoloLens LibGuide for a detailed description of the software, or else choose software based on name alone, and the names were not always helpful.

For the Microsoft HoloLens, the three most popular software programs were Land of the Dinosaurs, Palmyra and Insight Heart. Insight Heart allow users to view and manipulate a 3D rendering of a high-resolution human heart, Land of the Dinosaurs provided an augment reality experience featuring 3D renderings of dinosaurs, and Palmyra gave an augmented reality tour of the ancient city of Palmyra.

p. 7 Though many students had ideas for research projects that could make use of the technology, there was no available software that would have allowed them to use augmented reality in the way they wanted. There were no students interested in developing their own software to be used with the technology either.

p. 8 we found that the Microsoft HoloLens received significant use from our patrons, we would recommend the purchase of one only for libraries serving researchers and developers.

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Getting Real in the Library: A Case Study at the University of Florida

As an alternative, Microsoft offers a Hololens with enterprise options geared toward multiple users for $5000.

The transition from mobile app development to VR/AR technology also reflected the increased investment in VR/AR by some of the largest technology companies in the world. In the past four years, Facebook purchased the virtual reality company Oculus, Apple released the ARKit for developing augmented reality applications on iOS devices, Google developed Google Cardboard as an affordable VR option, and Sony released Playstation VR to accompany their gaming platform, just to name a few notable examples. This increase of VR/AR development was mirrored by a rise in student interest and faculty research in using and creating new VR/AR content at UF.

To assess the HoloLens’ potential for delivering AR assembly instructions, the cross-platform Unity 3D game engine was used to build a proof of concept application. Features focused upon when building the prototype were: user interfaces, dynamic 3D assembly instructions, and spatially registered content placement. The research showed that while the HoloLens is a promising system, there are still areas that require improvement, such as tracking accuracy, before the device is ready for deployment in a factory assembly setting.

We use Microsoft HoloLens device to augment the user’s experience in the real library and to provide a rich set of affordances for embodied and social interactions.We describe a mixed reality based system, a prototype mixed library, that provides a variety of affordances to support embodied interactions and improve the user experience.

Computer science as an engineering discipline has been spectacularly successful. Yet it is also a philosophical enterprise in the way it represents the world and creates and manipulates models of reality, people, and action. In this book, Paul Dourish addresses the philosophical bases of human-computer interaction. He looks at how what he calls “embodied interaction”—an approach to interacting with software systems that emphasizes skilled, engaged practice rather than disembodied rationality—reflects the phenomenological approaches of Martin Heidegger, Ludwig Wittgenstein, and other twentieth-century philosophers. The phenomenological tradition emphasizes the primacy of natural practice over abstract cognition in everyday activity. Dourish shows how this perspective can shed light on the foundational underpinnings of current research on embodied interaction. He looks in particular at how tangible and social approaches to interaction are related, how they can be used to analyze and understand embodied interaction, and how they could affect the design of future interactive systems.

HoloMuse, an AR application for the HoloLens wearable device, which allows users to actively engage with archaeological artifacts from a museum collection

pick up, rotate, scale, and alter a hologram of an original archeological artifact using in-air gestures. Users can also curate their own exhibit or customize an existing one by selecting artifacts from a virtual gallery and placing them within the physical world so that they are viewable only using the device. We intend to study the impact of HoloMuse on learning and engagement with college-level art history and archeology students.

Giving Classroom Experiences (Like VR) More … Dimension

at a session on the umbrella concept of “mixed reality” (abbreviated XR) here Thursday, attendees had some questions for the panel’s VR/AR/XR evangelists: Can these tools help students learn? Can institutions with limited budgets pull off ambitious projects? Can skeptical faculty members be convinced to experiment with unfamiliar technology?

Yale has landed on a “hub model” for project development — instructors propose projects and partner with students with technological capabilities to tap into a centralized pool of equipment and funding. (My note: this is what I suggest in my Chapter 2 of Arnheim, Eliot & Rose (2012) Lib Guides)

Several panelists said they had already been getting started on mixed reality initiatives prior to the infusion of support from Educause and HP, which helped them settle on a direction

While 3-D printing might seem to lend itself more naturally to the hard sciences, Yale’s humanities departments have cottoned to the technology as a portal to answering tough philosophical questions.

institutions would be better served forgoing an early investment in hardware and instead gravitating toward free online products like Unity, Organon and You by Sharecare, all of which allow users to create 3-D experiences from their desktop computers.

what this information can tell us about possible future uses for these technologies in higher education.

p. 5 Extended reality (XR) technologies, which encompass virtual reality (VR) and augmented reality (AR), are already having a dramatic impact on pedagogy in higher education. XR is a general term that covers a wide range of technologies along a continuum, with the real world at one end and fully immersive simulations at the other.

p. 6The Campus of the Future project was an exploratory evaluation of 3D technologies for instruction and research in higher education: VR, AR, 3D scanning, and 3D printing. The project sought to identify interesting and novel uses of 3D technology

p. 7 HP would provide the hardware, and EDUCAUSE would provide the methodological expertise to conduct an evaluation research project investigating the potential uses of 3D technologies in higher education learning and research.

The institutions that participated in the Campus of the Future project were selected because they were already on the cutting edge of integrating 3D technology into pedagogy. These institutions were therefore not representative, nor were they intended to be representative, of the state of higher education in the United States. These institutions were selected precisely because they already had a set of use cases for 3D technology available for study

p. 9 At some institutions, the group participating in the project was an academic unit (e.g., the Newhouse School of Communications at Syracuse University; the Graduate School of Education at Harvard University). At these institutions, the 3D technology provided by HP was deployed for use more or less exclusively by students and faculty affiliated with the particular academic unit.

p. 10 definitions
there is not universal agreement on the definitions of these
terms or on the scope of these technologies. Also, all of these technologies
currently exist in an active marketplace and, as in many rapidly changing markets, there is a tendency for companies to invent neologisms around 3D technology.

A 3D scanner is not a single device but rather a combination of hardware and
software. There are generally two pieces of hardware: a laser scanner and a digital
camera. The laser scanner bounces laser beams off the surface of an object to
determine its shape and contours.

p. 11 definitions

Virtual reality means that the wearer is completely immersed in a computer
simulation. Several types of VR headsets are currently available, but all involve
a lightweight helmet with a display in front of the eyes (see figure 2). In some
cases, this display may simply be a smartphone (e.g., Google Cardboard); in other
cases, two displays—one for each eye—are integrated into the headset (e.g., HTC
Vive). Most commercially available VR rigs also include handheld controllers
that enable the user to interact with the simulation by moving the controllers
in space and clicking on finger triggers or buttons.

p. 12 definitions

Augmented reality provides an “overlay” of some type over the real world through
the use of a headset or even a smartphone.

In an active technology marketplace, there is a tendency for new terms to be
invented rapidly and for existing terms to be used loosely. This is currently
happening in the VR and AR market space. The HP VR rig and the HTC Vive
unit are marketed as being immersive, meaning that the user is fully immersed in
a simulation—virtual reality. Many currently available AR headsets, however, are
marketed not as AR but rather as MR (mixed reality). These MR headsets have a
display in front of the eyes as well as a pair of front-mounted cameras; they are
therefore capable of supporting both VR and AR functionality.

p. 13 Implementation

Technical difficulties.
Technical issues can generally be divided into two broad categories: hardware
problems and software problems. There is, of course, a common third category:
human error.

It is also likely that staff in the campus IT unit or center for teaching and learning already know who (at least some of) these individuals are, since such faculty members are likely to already have had contact with these campus units.
Students may of course also be innovators and early adopters, and in fact
several participating institutions found that some of the most creative uses of 3D technology arose from student projects

p. 30 Zeynep Tufekci, in her book Twitter and Tear Gas

definition: There is no necessary distinction between AR and VR; indeed, much research
on the subject is based on a conception of a “virtuality continuum” from entirely
real to entirely virtual, where AR lies somewhere between those ends of the
spectrum. Paul Milgram and Fumio Kishino, “A Taxonomy of Mixed Reality Visual Displays,” IEICE Transactions on Information Systems, vol. E77-D, no. 12 (1994); Steve Mann, “Through the Glass, Lightly,” IEEE Technology and Society Magazine 31, no. 3 (2012): 10–14.

For the future of 3D technology in higher education to be realized, that
technology must become as much a part of higher education as any technology:
the learning management system (LMS), the projector, the classroom. New
technologies and practices generally enter institutions of higher education as
initiatives. Several active learning classroom initiatives are currently under
way,36 for example, as well as a multi-institution open educational resources
(OER) degree initiative.37

p. 32 Storytelling

Some scholars have argued that all human communication
is based on storytelling;41 certainly advertisers have long recognized that
storytelling makes for effective persuasion,42 and a growing body of research
shows that narrative is effective for teaching even topics that are not generally
thought of as having a natural story, for example, in the sciences.43

p. 33 accessibility

The experience of Gallaudet University highlights one of the most important
areas for development in 3D technology: accessibility for users with disabilities.

p. 34 instructional design

For that to be the case, 3D technologies must be incorporated into the
instructional design process for building and redesigning courses. And for that
to be the case, it is necessary for faculty and instructional designers to be familiar
with the capabilities of 3D technologies. And for that to be the case, it maynot be necessary but would certainly be helpful for instructional designers tocollaborate closely with the staff in campus IT units who support and maintainthis hardware.

Every institution of highereducation has a slightly different organizational structure, of course, but thesetwo campus units are often siloed. This siloing may lead to considerable frictionin conducting the most basic organizational tasks, such as setting up meetingsand apportioning responsibilities for shared tasks. Nevertheless, IT units andcenters for teaching and learning are almost compelled to collaborate in orderto support faculty who want to integrate 3D technology into their teaching. Itis necessary to bring the instructional design expertise of a center for teachingand learning to bear on integrating 3D technology into an instructor’s teaching (My note: and where does this place SCSU?) Therefore,one of the most critical areas in which IT units and centers for teaching andlearning can collaborate is in assisting instructors to develop this integrationand to develop learning objects that use 3D technology. p. 35 For 3D technology to really gain traction in higher education, it will need to be easier for instructors to deploy without such a large support team.

ClassVR is a tool that enables the simultaneous delivery of a simulation to
multiple headsets, though the simulation itself may still be single-user.

p. 37 data management:

An institutional repository is a collection of an institution’s intellectual output, often consisting of preprint journal articles and conference papers and the data sets behind them.49 Aninstitutional repository is often maintained by either the library or a partnershipbetween the library and the campus IT unit. An institutional repository therefore has the advantage of the long-term curatorial approach of librarianship combined with the systematic backup management of the IT unit. (My note: leaves me wonder where does this put SCSU)

Sharing data sets is critical for collaboration and increasingly the default for
scholarship. Data is as much a product of scholarship as publications, and there
is a growing sentiment among scholars that it should therefore be made public.50

Our survey polled 232 faculty members across the country about their use of technology in the classroom, their likes and dislikes, their predictions for the future and more. The majority of respondents (68 percent) come from public institutions, with 28 percent from private nonprofits and 4 percent working at for-profit schools. Seventy-two percent work at four-year colleges or universities; 26 percent are at community colleges (the remaining 2 percent designated their institutional level as “other”).

Respondents represent institutions of a range of sizes, with about one-third (32 percent) working in colleges or universities with 2,500 to 9,999 students. Just under half (45 percent) of respondents are from institutions with 10,000 students or more.

Our respondents are veterans of higher education: The largest group (47 percent) has more than 20 years of experience, with 81 percent logging at least 11 years in the field.

The top three most common school and college types among our respondents are education (22 percent), business/business administration (17 percent) and liberal arts (12 percent). But overall, respondents work in a wide range of disciplines, from engineering and medicine to humanities and fine arts. The top 10 states with the most survey respondents are New York, Texas, California, Florida, Georgia, Virginia, Illinois, Missouri, Pennsylvania and Massachusetts.